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Abstract

Crystals of cytoplasmic (porcine liver) actin in complex with deoxyribonuclease I (DNAase I) were prepared for structural determination by X-ray-diffraction analysis. The crystallization of porcine liver actin-DNAase I complex is preceded by a brief treatment with immobilized trypsin, whereby a C-terminal tri- or di-peptide including cysteine-374 is removed from the actin without any noticeable degradation of both proteins as judged by sodium dodecyl-sulphate/polyacrylamide-gel electrophoresis. Analysis of the crystals obtained does not reveal any differences in the three-dimensional structure of porcine liver actin from its skeletal compartment at up to 0.6 nm resolution. However, in contrast with crystalline skeletal-muscle actin-DNAase I complex, heavy-atom substitution of crystals of porcine liver actin-DNAase I complex could not be achieved with methyl mercuriacetate. Evidence is presented that, in porcine liver actin, the N-terminal cysteine residue is not located at position no. 10, as in skeletal- and smooth-muscle actin, but most probably at position no. 17. Thus, because this site is covered by DNAase I, the cysteine becomes inaccessible to titration with 5,5'-dithiobis-(2-nitrobenzoic acid) after complex-formation with DNAase I.